Prevalent and new use of common drugs for the incidence of community-acquired acute kidney injury: cohort and case-crossover study

Although community-acquired acute kidney injury (CA-AKI) represents a significant subset of all AKI incidence, evidence is limited due to the lack of comprehensive data prior to diagnosis. Here, we examined the risk of drug use for CA-AKI by using exhaustive pre-diagnostic prescription data. We included 78,754 working-age healthy individuals who underwent an annual health checkup program. We conducted a cohort study to assess the association between prevalent drug use and subsequent CA-AKI incidence using the Cox proportional hazard model. Subsequently, we conducted a case-crossover study to compare the new drug use in the case period directly before the CA-AKI incidence (− 3 to 0 months) with that in the control period far before the CA-AKI incidence (− 15 to − 12 months and − 9 to − 6 months) using the conditional Poisson regression model. The prevalent use of renin–angiotensin–aldosterone system (RAAS) inhibitors was associated with an increased CA-AKI incidence, but the new use was not. The new use of diuretics, anti-infectious drugs, and contrast medium was also associated with an increased CA-AKI incidence. These results suggest we need to pay attention for the incidence of AKI among the general population taking those common drugs.

This study aimed to assess the association between potential risk factors and the incidence of CA-AKI in the general population.Using a cohort design and case-crossover design, we evaluated whether the prevalent and new drug use prescribed in primary care settings are risk factors for CA-AKI.

Study subjects and baseline characteristics
A total of 95,227 individuals participated in the health checkup.Of these, 16,473 were excluded-437 had a history of renal failure or an estimated glomerular filtration rate (eGFR) < 15 mL/min/1.73m 2 , 15,936 individuals did not have data of creatinine at baseline, and 100 did not have longitudinal data.Ultimately, 78,754 individuals were analysed in the cohort design (Fig. 1).A total of 166 patients (0.21%) developed CA-AKI during the followup period {5.36 (95% confidence intervals [95% CIs], 4.60-6.24per 10,000 person-years)}.
As shown in Table 1, the mean age was 53.0 (standard deviation [SD], 10.5) years, 26.2% were female, and the mean baseline eGFR value was 77.4 (SD, 15.2) mL/min/1.73m 2 .Subjects with subsequent CA-AKI tended to be male, have more frequent smoking and less regular exercise habits, have a higher frequency of chronic liver disease (CLD), and be prescribed RAAS inhibitors and antidiabetic agents.The baseline renal function measured by eGFR did not differ markedly between groups.We did not describe values of albumin and C-reactive protein (CRP) because of missing data in more than 60% of subjects.
A total of 15,936 subjects were excluded because of the unavailability of data regarding baseline creatinine; these subjects were likely to be older, less commonly males, have more frequent smoking and regular exercise habits, and have more prescriptions of RAAS inhibitors and other antihypertensive agents (see Supplementary Table S1).

Association between the prevalent drug use and CA-AKI incidence
The maximum length of follow-up was 6.58 years, and the median length was 4.37 (interquartile range [IQR], 2.10-5.83)years.As shown in Table 2, the prevalent use of RAAS inhibitors was associated with CA-AKI incidence.Additionally, CA-AKI incidence was significantly associated with risk factors, including male sex, lower BMI, smoking, lower frequency of regular exercise, lower haemoglobin levels, and proteinuria.For sensitivity analyses, adjusting for fewer numbers of covariates, we confirmed the robustness of these findings, which were consistent with that of the main analysis (see Supplementary Table S2).Furthermore, we confirmed the continuation rates of each drug during the follow-up (Table 3).We performed sensitivity analyses, excluding histamine-2 receptor antagonists (H2Ras) with a continuation rate < 50% one year from the beginning of the study, excluding drugs other than RAAS inhibitors and other antihypertensive agents from covariates at the median time (4.37 years) of follow-up.We also confirmed the robustness of these findings, which were consistent with that of the main analysis (see supplementary Table S3).

Association between the new drug use and CA-AKI incidence
We compared the incidence of CA-AKI between the case period (− 3 to 0 months) and control periods (− 15 to − 12 months and − 9 to − 6 months) of 166 subjects.As shown in Table 4, the subjects in which CA-AKI occurred received the new use of diuretics, anti-infectious drugs, and contrast medium during the case period compared with the control periods.Additionally, we compared the case period with only the earlier control period (− 15 to − 12 months) as a sensitivity analysis.This result was consistent with that of the main analysis (see Supplementary Table S4).

Discussion
We included working-age individuals who underwent the national health checkup program in Japan.The prevalent use of RAAS inhibitors was associated with subsequent CA-AKI incidence, whereas the new use of RAAS inhibitors was not.Furthermore, the new use of diuretics, anti-infectious drugs, and contrast media was Table 1.Baseline characteristics of subjects according to the presence or absence of CA-AKI incidence.Normally distributed continuous data were summarised as the mean (standard deviation), continuous variables with skewed data were summarised as median (interquartile range) and dichotomous or categorical data were summarised as proportions.CA-AKI, community-acquired acute kidney injury; eGFR, estimated glomerular filtration rate; ALT, alanine aminotransferase; AST, aspartate aminotransferase; γ-GTP, γ-glutamyl transpeptidase; HbA1c, haemoglobin A1c; and RAAS, renin-angiotensin-aldosterone system.www.nature.com/scientificreports/ the prevention of renal failure, proteinuria, and cardiovascular disease 21,22 .Generally, the incidences of AKI and hyperkalaemia have been reported as the side effects of the new use of RAAS inhibitors, especially for patients with CKD 23 .Our findings did not reveal the association between the new use of RAAS inhibitors and CA-AKI incidence because our study used health checkup data and probably included a well-tolerated cohort population.Additionally, it might cause reporting bias because the patients often indicate the initial dip of renal function when the RAAS inhibitors were newly prescribed.Nevertheless, our study revealed an association between the prevalent use of RAAS inhibitors and CA-AKI incidence.This finding suggests that physicians need to monitor patients regularly and continuously for dehydration during the prescription of RAAS inhibitors even for patients with normal kidney function because RAAS inhibitors sustainably reduce intraglomerular pressure, which can increase the risk of low eGFR and CA-AKI by several events accompanied by acute volume depletion 13,14,24 .
In contrast, our case-crossover study revealed the associations of the new use of diuretics, anti-infectious drugs, and contrast media with CA-AKI incidence.This study design allowed the self-matching of many covariates, although the number of outcomes was limited.Anti-infectious drugs and contrast media have been reported to cause acute tubulointerstitial nephritis and AKI, accompanied by allergic reactions, even with the use of low dosages for short periods.Additionally, the similar association have been reported for PPI and NSAIDs, although there were no significant differences in this study.This disorder could also occur in individuals without underlying diseases, such as renal dysfunction [15][16][17][18][19][20] .More careful monitoring is needed, especially immediately after the administration of these drugs, regardless of kidney function.Therefore, this study suggests that physicians need to modify the precautionary measures for each treatment depending on the timing of the increased risk of CA-AKI incidence.
CA-AKI incidence in the general population, that is, among those who underwent a health checkup program, was lower than the estimated rate of previous studies 1, 3,25 .We should be careful about the overestimation www.nature.com/scientificreports/ of CA-AKI incidence from patient data because these patients are at high risk of AKI due to comorbidities and medical interventions 1,24 .Although it is usually difficult to examine pre-hospital risk factors in healthy populations without diagnosing CKD and other diseases, we had a unique opportunity to examine multiple risk factors, which were measured in the annual national health checkup system and medical claims data in Japan [26][27][28] .The present study, which used health checkup data, suggests that attention should be paid to subjects with risk profiling, such as more frequent smoking or less frequent exercise habit, in addition to male sex, lower BMI, proteinuria, and anaemia that were also recognized as the risk of HA-AKI.Further, we need to pay attention to the new use of diuretics, and anti-infectious drugs prescribed in primary care settings.Future studies should examine the association between CA-AKI and other comorbidities such as CHF, CLD, diabetes mellitus, hypertension, and pre-existing declined kidney function in more detail that are risk factors for HA-AKI, even though there was no significant association in this study [29][30][31][32] .Additionally, our study indicated the association between CA-AKI and the use of contrast medium as similar with HA-AKI.Previous study dose not necessarily Table 3. Cumulative proportion of continuously prescribed medications, (%).
Kaplan-Meier Curves show the cumulative proportions of continued prescription by drug types.Discontinuation of a drug was defined as more than 90 days without a prescription since the last prescription period.The Table shows the percentage of drug continuation from the baseline at each time point from year 1 to year 6 and at the median time of follow-up.RAAS, renin-angiotensin-aldosterone system.reccomend the prior preparation for patients with normal kidney function.We should discuss more in the future study because of the conflicting evidence 33 .This study has some limitations.First, several comorbidities and outcomes in the present study were defined based on the 10th revision of the International Classification of Diseases (ICD-10) codes, but not based on definitions from several recommendations or criteria, such as the Kidney Disease Improving Global Outcomes (KDIGO) clinical practice guidelines.Therefore, these data are likely to be under-detected, leading to misclassification 34,35 .Second, we were unable to assess the compliance of the participants for each drug.We described how medications were continuously prescribed (Table 3).Although some patients may restart their medication after the first discontinuation, we were unable to analyze changes in prescription patterns after the initial discontinuation.Third, we were unable to assess the influence of individual drugs, such as aminoglycoside antibiotics, included in the group of anti-infectious drugs because of the small number of events.Additionally, we were unable to determine whether events related to drugs had a greater impact on CA-AKI incidence.Drug prescription may be a surrogate marker of some events (see Supplementary Table S5).However, we were unable to adjust for these events because of the small number of events in the control group.Forth, we were unable to assess the influence of several relevant covariates, such as albumin and CRP levels, because of the high frequency of missing values.However, we considered that the missing values did not markedly influence our findings, because we confirmed that the results before and after multiple imputation, including albumin and CRP, were consistent (data not shown).Additionally, we could not extract the past history of cancer from the health checkup data.Moreover, we need to assess the influence of confounding by indication in future research using the analytical methods such as the instrumental variable method, because we could not perform the assessment in the present study because of loss of power.Fifth, we defined the date of diagnosis in the claims databases as the incident data of CA-AKI and other related events.If the diagnoses were delayed, the incident data was also delayed than actual periods.However, we considered that a reversal causality was unlikely to occur because of the sudden onset like CA-AKI.Finally, participants in the present study were limited to workers belonging to a specific occupation and their families, which might reduce generalizability.
We conclude that both the prevalent use and new use of several drugs that are commonly prescribed in the primary care setting might contribute to CA-AKI development.We need to focus on the potential risk of CA-AKI due to drug use, considering the timing that increases CA-AKI risk.In future studies, we need to evaluate this association in more detail, distinguishing the prescription of drugs from related events.

Study subjects and data sources
We used a nationwide cohort with data from the annual health checkup program from 2014 to 2020 obtained from one of the largest employment-based health insurers in Japan.The subjects were civil engineers and employees of construction companies along with their family members aged from 19 to 74 years.We excluded patients with a history of renal failure or eGFR < 15 mL/min/1.73m 2 who were on the dialysis or pre-dialysis stage.We also excluded individuals for whom baseline serum creatinine data were unavailable.If creatinine values were missing at the first year that participants were employed, we used the data of the first health checkup along with creatinine values during follow-up as baseline data.
The study complied with the Declaration of Helsinki.The Institutional Review Board of the Kyoto University approved this study (approval number: R0817-2).In accordance with the Japanese Ethical Guidelines for Medical and Health Research Involving Human Subjects, we used anonymised data for analysis 36 .The institutional review board waived the need to obtain informed consent from the participants as we only used anonymised data for analysis in this study.This study followed the Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) recommendations.

Definition of CA-AKI as the outcome
We defined CA-AKI as the outcome using the ICD-10 codes based on the lists of the London School of Hygiene & Tropical Medicine, London, United Kingdom.We included "Acute kidney failure with lesion of tubular necrosis" (N17.0),"Acute kidney failure with lesion of acute cortical necrosis" (N17.1),"Acute kidney failure with lesion of medullary necrosis" (N17.2),"acute kidney failure with other specified pathological" (N17.8), and "Acute kidney failure, unspecified" (N17.9)(see Supplementary Table S6).

Extraction of drugs and definition of the prevalent and new drug use
We extracted data on the use of RAAS inhibitors, antihypertensive agents other than RAAS inhibitors, diuretics, antidiabetic agents, PPIs, H2RAs, active vitamin D3 analogues, NSAIDs, and anti-infectious drugs, as drugs prescribed in primary care settings.The drugs were categorised based on the Anatomical Therapeutic Chemical (ATC) classification developed by the World Health Organization (Geneva) 37 .Additionally, we identified drugs without the ATC code using D numbers that distinguish drugs based on their chemical substances (see Supplementary Table S7).
Patients whose prescriptions were within 90 days of a previous prescription of the same drug were treated as prevalent users, while patients whose prescriptions where the previous prescription could not be verified or were prescribed after 90 days even the same drug were treated as new users.The extent to which the drug affected the patient was defined as uniformly within 90 days of the prescription, wherever patients were prevalent users or new users 38 .The patients with contrast medium were not defined as prevalent users because these drugs were not used continuously in the primary care setting.We also did not define NSAIDs and anti-infectious drug users as the prevalent users because they were not continuously prescribed in most cases.

Figure 1 .
Figure 1.Study flow diagram and study selection process.